Event-based reconstruction of time-resolved centreline deformation of flapping flags

arXiv - PHYS - Fluid Dynamics Pub Date : 2024-09-13 DOI:arxiv-2409.08939

Gaetan Raynaud, Karen Mulleners

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Abstract

High-speed imaging is central to the experimental investigation of fast phenomena, like flapping flags. Event-based cameras use new types of sensors that address typical challenges such as low illumination conditions, large data transfer, and the trade-off between increasing repetition rate and measurement duration more efficiently and at reduced costs compared to classical frame-based fast cameras. Event-based cameras output unstructured data that frame-based algorithms can not process. This paper proposes a general method to reconstruct the motion of a slender object similar to the centreline of a flapping flag from raw streams of event data. Our algorithm relies on a coarse chain-like structure that encodes the current state of the line and is updated by the occurrence of new events. The algorithm is applied to synthetic data, generated from known motions, to demonstrate that the method is accurate up to one percent of error for tip-based, shape-based, and modal decomposition metrics. Degradation of the reconstruction accuracy due to simulated defects only occurs when the defect intensities become more than two orders of magnitude larger than the values expected in experiments. The algorithm is then applied to experimental data of flapping flags, and we obtain relative errors below one percent when comparing the results with the data from laser distance sensors. The reconstruction of line deformation from event-based data is accurate and robust, and unlocks the ability to perform autonomous measurements in experimental mechanics.

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基于事件的拍旗中心线变形时间分辨重建

高速成像是实验研究快速现象（如拍打旗帜）的核心。与传统的基于框架的快速相机相比，基于事件的相机使用新型传感器，能更有效地解决典型的挑战，如低照度条件、大数据传输以及提高重复率和测量时间之间的权衡，而且成本更低。基于事件的相机输出的非结构化数据是基于框架的算法所无法处理的。本文提出了一种通用方法，从原始事件数据流中重建类似于重叠旗帜中心线的细长物体的运动。我们的算法依赖于一个类似粗链的结构，该结构对直线的当前状态进行编码，并根据新事件的发生进行更新。该算法应用于由已知运动生成的合成数据，以证明该方法在基于尖端、形状和模态分解度量方面的误差不超过百分之一。只有当缺陷强度比实验中的预期值大两个数量级以上时，模拟缺陷才会导致重建精度下降。我们将该算法应用于拍打旗帜的实验数据，并将结果与激光测距仪的数据进行比较，得到了低于百分之一的相对误差。从基于事件的数据中重建线形变是准确和稳健的，并开启了在实验力学中进行自主测量的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Fluid Dynamics

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